Device including speech recognition function and method of recognizing speech

ABSTRACT

A device including a speech recognition function which recognizes speech from a user, includes: a loudspeaker which outputs speech to a space; a microphone which collects speech in the space; a first speech recognition unit which recognizes the speech collected by the microphone; a command control unit which issues a command for controlling the device, based on the speech recognized by the first speech recognition unit; and a control unit which prohibits the command issuance unit from issuing the command, based on the speech to be output from the loudspeaker.

CROSS REFERENCE TO RELATED APPLICATIONS

This is a continuation application of PCT International Application No.PCT/JP2013/004813 filed on Aug. 9, 2013, designating the United Statesof America, which is based on and claims priority of Japanese PatentApplication No. 2012-287724 filed on Dec. 28, 2012. The entiredisclosures of the above-identified applications, including thespecifications, drawings and claims are incorporated herein by referencein their entirety.

FIELD

The present disclosure relates to devices including a speech recognitionfunction and methods of recognizing speech.

BACKGROUND

Recent years have seen development of electronic devices including aspeech recognition function. For example, at the beginning of the year2012, Samsung Electronics Co., Ltd. released a television (TV) which canbe operated using speech recognition.

The TV can be operated by speech from a user (hereinafter, may also bereferred to as user speech) in the following manner. The user speaks akeyword which instructs, for example, turning the volume up or down, orselecting a channel. When the speech recognition function included inthe TV recognizes the keyword, a command associated with the keyword isissued to the TV, thereby operating the TV.

In this case, the keyword may be output by the TV itself by chance. Forexample, it is assumed that the speech “channel 10” is the keywordinstructing the TV channel to be changed to channel 10. When a personappearing on a TV program on the TV speaks “channel 10” by chance, thespeech “channel 10” is output from a loudspeaker of the TV. The outputspeech is collected by a microphone and recognized, resulting in anunintentional change of the TV channel to channel 10.

Patent Literature (PTL) 1 and PTL 2, for example, disclose techniques toprevent a device from incorrectly operating due to the speech output bythe device itself.

When a keyword spoken by a user causes a device to issue a commandassociated with the keyword, the user speech needs to be accuratelyrecognized. PTL 3, for example, discloses such a technique foraccurately recognizing the user speech.

CITATION LIST Patent Literature

[PTL 1] Japanese Unexamined Patent Application Publication No.2003-44069

[PTL 2] Japanese Unexamined Patent Application Publication No.2006-171077

[PTL 3] Japanese Patent No. 4554044

SUMMARY Technical Problem

However, there is a demand for more accurately preventing a device fromincorrectly operating due to the speech output by the device itself.

One non-limiting and exemplary embodiment provides a device including aspeech recognition function, which prevents the device from incorrectlyoperating due to speech output by the device itself.

Solution to Problem

A device including a speech recognition function according to one aspectof the present disclosure is a device including a speech recognitionfunction which recognizes user speech which is speech from a user. Thedevice includes: a loudspeaker which outputs speech to a space; amicrophone which collects speech in the space; a first speechrecognition unit which recognizes the speech collected by themicrophone; a command issuance unit which issues a command forcontrolling the device including the speech recognition function, basedon the speech recognized by the first speech recognition unit; and acontrol unit which prohibits the command issuance unit from issuing thecommand, based on the speech to be output from the loudspeaker.

This prevents the device from incorrectly operating due to recognizingthe speech output by the device itself by chance without the user'sintent. In other words, it is possible to prevent the device fromincorrectly operating due to the speech output by the device itself.

These general and specific aspects may be implemented using a system, amethod, an integrated circuit, a computer program, or acomputer-readable recording medium such as a CD-ROM, or any combinationof systems, methods, integrated circuits, computer programs, orcomputer-readable recording media.

Advantageous Effects

One or more exemplary embodiments or features disclosed herein provide adevice including a speech recognition function, which prevents thedevice from incorrectly operating due to the speech output by the deviceitself.

BRIEF DESCRIPTION OF DRAWINGS

These and other objects, advantages and features of the invention willbecome apparent from the following description thereof taken inconjunction with the accompanying drawings that illustrate a specificembodiment of the present invention.

FIG. 1 is a block diagram illustrating a configuration of a deviceincluding a speech recognition function according to Embodiment 1.

FIG. 2 is a flowchart illustrating operations of the device includingthe speech recognition function.

FIG. 3 is a block diagram illustrating a configuration of a deviceincluding a speech recognition function according to Embodiment 2.

FIG. 4 is a flowchart illustrating operations of the device includingthe speech recognition function.

FIG. 5 is a block diagram illustrating a configuration of a deviceincluding a speech recognition function according to Variation ofEmbodiment 2.

FIG. 6 is a block diagram illustrating a configuration of a deviceincluding a speech recognition function including a downsampler whichdownsamples an output to be provided from a microphone.

FIG. 7 is a block diagram illustrating another example of theconfiguration of the device including the speech recognition functionaccording to Embodiment 1.

FIG. 8 is a flowchart illustrating an example of operations of thedevice including the speech recognition function illustrated in FIG. 7.

FIG. 9 is a block diagram illustrating another example of theconfiguration of the device including the speech recognition functionaccording to Embodiment 2.

FIG. 10 is a flowchart illustrating an example of operations of thedevice including the speech recognition function illustrated in FIG. 9.

FIG. 11A is a block diagram illustrating a configuration of a deviceincluding a speech recognition function according to Comparative Example1.

FIG. 11B is a block diagram illustrating a configuration of a deviceincluding a speech recognition function according to Variation ofComparative Example 1.

FIG. 12A is a block diagram illustrating an example of a configurationof a device including a speech recognition function according toComparative Example 2.

FIG. 12B is a block diagram illustrating another example of theconfiguration of the device including the speech recognition functionaccording to Comparative Example 2.

DESCRIPTION OF EMBODIMENTS

In order to prevent the device from incorrectly operating due to thespeech output by the device itself as described above, a deviceincluding a speech recognition function according to one aspect of thepresent disclosure is a device including a speech recognition functionwhich recognizes user speech which is speech from a user. The deviceincludes: a loudspeaker which outputs speech to a space; a microphonewhich collects speech in the space; a first speech recognition unitwhich recognizes the speech collected by the microphone; a commandissuance unit which issues a command for controlling the deviceincluding the speech recognition function, based on the speechrecognized by the first speech recognition unit; and a control unitwhich prohibits the command issuance unit from issuing the command,based on the speech to be output from the loudspeaker.

This prevents the device from incorrectly operating due to the speechoutput by the device itself.

Moreover, it may be that the control unit includes a second speechrecognition unit which recognizes the speech to be output from theloudspeaker, and that the control unit determines whether or not thespeech recognized by the second speech recognition unit matches apredetermined keyword, and when the speech recognized by the secondspeech recognition unit matches the predetermined keyword, prohibits thecommand issuance unit from issuing the command.

With this, when the speech output from the loudspeaker is apredetermined keyword, a command for controlling the device itself isnot issued. Accordingly, by setting a word associated with a command toa keyword, it is possible to more reliably prevent the device fromincorrectly operating due to recognizing the speech output by the deviceitself by chance without the user's intent.

Moreover, a device including a speech recognition function according toanother embodiment of the present disclosure is a device including aspeech recognition function which recognizes user speech which is speechfrom a user. The device includes: at least one loudspeaker which outputsspeech to a space; a microphone which collects speech in the space; aspeech recognition unit which recognizes the user speech among thespeech collected by the microphone; a downsampler which downsamples aspeech signal to have a narrower bandwidth, the speech signal being anelectric signal of the speech to be output from the at least oneloudspeaker; and an echo canceller which estimates, based on the speechsignal downsampled, an echo component which is the speech collected bythe microphone among the speech output from the at least oneloudspeaker, and cancels the echo component estimated, from the speechcollected by the microphone. The speech recognition unit recognizes theuser speech by recognizing speech from which the echo canceller hascanceled the echo component.

With this, the user speech is accurately recognized without beinginterrupted by the speech output by the device itself. Furthermore, theamount of computation by the echo canceller can be reduced by providinga downsampler in a stage prior to the echo canceller. In other words,accurate speech recognition can be performed with less amount ofcomputation.

Moreover, it may be that the downsampler downsamples the speech signalinput to the downsampler, by less than or equal to (1/N)^0.5, when theat least one loudspeaker comprises N loudspeakers where N is an integergreater than or equal to 2.

With this, even when a loudspeaker of a device supports a multi-channelsignal, the user speech can be accurately recognized without beinginterrupted by the speech signal output by the device itself, with theamount of computation less than or equal to that required in aloudspeaker which supports a monaural-channel signal.

Moreover, the device including the speech recognition function mayfurther include a command issuance unit which issues a command forcontrolling the device including the speech recognition function, basedon the speech recognized by the speech recognition unit. It may be thatthe speech recognition unit prohibits the command issuance unit fromissuing the command based on the echo component, by recognizing speechfrom which the echo canceller has canceled the echo component.

These general and specific aspects may be implemented using a system, amethod, an integrated circuit, a computer program, or acomputer-readable recording medium such as a CD-ROM, or any combinationof systems, methods, integrated circuits, computer programs, orcomputer-readable recording media.

Prior to describing a device including a speech recognition functionaccording to each embodiment, devices including a speech recognitionfunction according to Comparative Examples 1 and 2 of the presentdisclosure will be described.

In order to prevent a device from incorrectly operating due to thespeech output by the device itself as described above, as the techniquein PTL 1 discloses, a watermark signal may be inserted to a speechsignal which is an electric signal of speech to be output from aloudspeaker.

FIG. 11A is a block diagram illustrating a configuration of a deviceincluding a speech recognition function according to Comparative Example1 of the present disclosure.

As FIG. 11A illustrates, in the device including the speech recognitionfunction according to Comparative Example 1, a watermark signal isinserted to speech received by a TV reception display unit 800, beforethe speech is output from a loudspeaker 801. On the other hand, a speechsignal of speech collected by a microphone 802 undergoes watermarkdetection, and undergoes speech recognition by a first speechrecognition unit 803. The first speech recognition unit 803 does notperform speech recognition on the speech component for which thewatermark signal has been detected. Subsequently, information of therecognition result is converted into a command to the TV receptiondisplay unit 800.

The technique disclosed in PTL 2 may be applied to the device includingthe speech recognition function according to Comparative Example 1.

FIG. 11B is a block diagram illustrating a configuration of a deviceincluding a speech recognition function according to Variation ofComparative Example 1 to which the technique disclosed in PTL 2 has beenapplied to the Comparative Example 1.

As FIG. 11B illustrates, in the device including the speech recognitionfunction according to Variation of Comparative Example 1, speech isrecognized by a second speech recognition unit 804 before the speech isoutput from the loudspeaker 801. On the other hand, the speech collectedby the microphone 802 is recognized by the first speech recognition unit803, and the recognition results by the two recognition units (the firstspeech recognition unit 803 and the second speech recognition unit 804)are compared by a canceling unit 805. The recognition result by thesecond speech recognition unit 804 is canceled from the recognitionresult by the first speech recognition unit 803, and the recognitionresult after the cancellation is converted into a command to the TVreception display unit 800.

PTL 3 discloses a technique for echo cancellation as a technique forimproving speech recognition rate.

FIG. 12A and FIG. 12B each are block diagrams illustrating aconfiguration of a device including a speech recognition functionaccording to Comparative Example 2 of the present disclosure whichincludes such an echo canceling function.

As FIG. 12A and FIG. 12B illustrate, the basic idea for echocancellation is to determine the speech output from loudspeakers 901 andcollected by a microphone 902 as echo, and speech recognition isperformed on the speech after canceling the echo by an echo canceller904 included in the device including the speech recognition function.With this, user speech can be recognized without being interrupted bythe speech output by the device including the speech recognitionfunction, and the recognition result can be converted into a command tothe TV reception display unit 900.

When the speech signal output from the TV reception display unit 900 isa stereo signal, echo cannot be canceled by one echo canceller. Hence,as FIG. 12A illustrates, a signal to be output from the loudspeakersneed to be converted into a monaural signal in the speech recognitionmode, or as FIG. 12B illustrates, a plurality of echo cancellers need tobe used.

In the configuration according to Comparative Example 1, however, awatermark signal multiplexed on a speech signal before the speech signalis output from the loudspeaker 801 is highly likely to be canceled byvarious noise in the space after the multiplexed signal is output fromthe loudspeaker 801. Accordingly, causing the microphone side to cancelthe speech output by the device including the speech recognitionfunction (for example, TV) is substantially unlikely.

Moreover, the configuration according to Variation of ComparativeExample 1 requires complicated processing in which two speechrecognition results are analyzed and compared, and then the speechrecognition results themselves are altered (canceled).

In the configuration according to Comparative Example 2, when a signalto be output from the loudspeakers 901 is converted into a monauralsignal (as in FIG. 12A), the original speech quality is degraded in thespeech recognition mode. On the other hand, when the speech output fromthe loudspeakers 901 remains unchanged as a stereo signal, and aplurality of echo cancellers 904 are used (as in FIG. 12B), the amountof computation by the echo cancellers 904 is significantly large. Thisis because the amount of computation by the echo cancellers 904increases in proportion to the square of the frequency band of thespeech signal input from the microphone 902. Specifically, a speechsignal of TV has a bandwidth of 24 kHz, and a speech signal subject tospeech recognition has a bandwidth of 8 kHz at most. In view of this,the amount of computation required by the echo cancellers 904 is ninetimes (that is, (24/8)^2 times) as much as the amount of computationwhich is originally required (appropriate). In addition, converting intoa stereo signal requires double amount of computation.

Hereinafter, embodiments are described in greater detail with referenceto the accompanying Drawings.

Each of the embodiments described below shows a general or specificexample. The numerical values, structural elements, the arrangement andconnection of the structural elements, steps, the processing order ofthe steps etc. shown in the following embodiments are mere examples, andtherefore do not limit the scope of the present disclosure. Therefore,among the structural elements in the following embodiments, structuralelements not recited in any one of the independent claims are describedas arbitrary structural elements.

Embodiment 1

A device including a speech recognition function according to Embodiment1 recognizes speech to be output from a loudspeaker, and when therecognized speech matches a predetermined keyword, the device prohibitsissuance of a command for controlling the device. This prevents thedevice including the speech recognition function from incorrectlyoperating due to the speech output by the device itself.

Hereinafter, a description is given of a device including a speechrecognition function according to Embodiment 1 with reference to theaccompanying Drawings.

FIG. 1 is a block diagram illustrating a configuration of the deviceincluding the speech recognition function according to Embodiment 1. InEmbodiment 1, as a device including a speech recognition function 1, adescription is given of an example of a TV including a speechrecognition function. In other words, the device including the speechrecognition function 1 according to Embodiment 1 is a TV including aspeech recognition function.

The device including the speech recognition function 1 illustrated inFIG. 1 includes: a TV reception unit 100 which receives a TV signal andgenerates a speech signal; a loudspeaker 101 which outputs the speechsignal into a space as speech; a microphone 102 which collects speech inthe space as a speech signal; a first speech recognition unit 103 whichrecognizes the speech collected by the microphone 102; a second speechrecognition unit 104 which recognizes the speech to be output from theloudspeaker 101; a command control unit 105 which converts outputinformation from the first speech recognition unit 103 into a command tothe TV reception unit 100; and a switch 106. Hereinafter, aconfiguration of the device including the speech recognition function 1will be specifically described.

The TV reception unit 100 is, for example, a tuner, which receives a TVsignal including a video signal and a speech signal transmitted fromoutside of the device including the speech recognition function 1. TheTV reception unit 100 outputs a speech signal included in the receivedTV signal to the loudspeaker 101, and outputs a video signal included inthe received TV signal to an image display unit (not illustrated) suchas a liquid crystal panel. The TV reception unit 100, for example,switches between reception channels according to a command provided fromthe command control unit 105.

The loudspeaker 101 converts a speech signal which is an electric signaloutput from the TV reception unit 100 into physical vibration togenerate speech which is air vibration. In other words, the loudspeaker101 outputs speech corresponding to the speech signal to a space.

The microphone 102 converts speech into a physical signal to generate aspeech signal which is an electric signal. In other words, themicrophone 102 collects speech.

The first speech recognition unit 103 recognizes the speech collected bythe microphone 102. Specifically, the first speech recognition unit 103recognizes the speech collected by the microphone 102 by analyzing thespeech signal output from the microphone 102. The first speechrecognition unit 103 outputs information indicating the recognizedspeech to the command control unit 105.

The second speech recognition unit 104 recognizes speech to be outputfrom the loudspeaker 101 by analyzing a speech signal that is beforebeing output from the loudspeaker 101. When the recognized speechmatches a predetermined keyword, the second speech recognition unit 104turns off the switch 106. In other words, the second speech recognitionunit 104 prohibits the command control unit 105 from issuing a commandto the TV reception unit 100. For example, the second speech recognitionunit 104 includes a storage unit for storing keywords registered by auser. When the recognized speech is stored in the storage unit, thesecond speech recognition unit 104 determines that the recognized speechmatches a predetermined keyword, and turns off the switch 106.

The command control unit 105 generates a command in accordance with thespeech recognized by the first speech recognition unit 103. In otherwords, the command control unit 105 converts the speech recognized bythe first speech recognition unit 103 into a command. Specifically, whenthe speech recognized by the first speech recognition unit 103 is apredetermined keyword, the command control unit 105 generates a commandassociated with the keyword, and issues the generated command to the TVreception unit 100 via the switch 106. For example, the command controlunit 105 includes a storage unit storing commands and informationindicating predetermined keywords associated with the commands. When thespeech recognized by the first speech recognition unit 103 matches anyone of the keywords stored in the storage unit, the command control unit105 issues a command associated with the matched keyword.

The switch 106 switches between issuance and non-issuance of the commandconverted by the command control unit 105 to the TV reception unit 100,by turning on and off according to an instruction from the second speechrecognition unit 104. Specifically, the switch 106 turns off when thespeech recognized by the second speech recognition unit 104 matches apredetermined keyword, and turns on when no match is found. In otherwords, the second speech recognition unit 104 and the switch 106prohibit the command control unit 105 from issuing a command, based onthe speech to be output from the loudspeaker 101.

Next, operations of the device including the speech recognition function1 configured as above will be described.

FIG. 2 is a flowchart illustrating operations of the device includingthe speech recognition function 1 according to Embodiment 1.

First, the TV reception unit 100 receives a TV signal, and generates aspeech signal based on the received TV signal (S101).

The speech signal thus generated is output to a space by the loudspeaker101 (S102). Specifically, the loudspeaker 101 converts the speech signalgenerated by the TV reception unit 100 into speech which is airvibration, and outputs the speech to the space.

A speech signal, which is in the space and which includes the speechsignal output to the space from the loudspeaker 101, is collected by themicrophone 102 (S103). Specifically, the microphone 102 converts speechwhich is air vibration in the space into a speech signal which is anelectric signal. In other words, the microphone 102 collects speech.

The speech signal collected by the microphone 102 is recognized by thefirst speech recognition unit 103 (S104). Specifically, the first speechrecognition unit 103 recognizes the speech collected by the microphone102 by analyzing the speech signal output from the microphone 102. Thefirst speech recognition unit 103 outputs information indicating therecognized result to the command control unit 105.

On the other hand, the speech signal before being output from theloudspeaker 101 is recognized by the second speech recognition unit 104(S105).

Here, as described above, the command control unit 105 issues apredetermined command to the TV reception unit 100 based on the outputinformation from the first speech recognition unit 103. When the outputinformation from the second speech recognition unit 104 matches apredetermined keyword, the control unit including the second speechrecognition unit 104 and the switch 106 performs control such that thecommand control unit 105 does not issue a command to the TV receptionunit 100.

Specifically, after the second speech recognition unit 104 recognizesspeech to be output from the loudspeaker 101 (after S105), the secondspeech recognition unit 104 determines whether or not the speech to beoutput from the loudspeaker 101 matches a predetermined keyword (S106).When a match is found (Yes in S106), the switch 106 is turned off toprohibit the command control unit 105 from issuing a command to the TVreception unit 100 (S107). On the other hand, when no match is found (Noin S106), the switch 106 is kept on to cause the command control unit105 to issue a command to the TV reception unit 100 (S108). In otherwords, issuance of a command from the command control unit 105 to the TVreception unit 100 is permitted.

In this way, when the speech output from the device including the speechrecognition function 1 matches a predetermined keyword, the commandcontrol unit 105 does not issue a command indicated by the keyword, tothe TV reception unit 100. This reduces an incorrect operation of thedevice including the speech recognition function 1 caused due to thespeech output by the device 1 itself.

For example, it is assumed that when the first speech recognition unit103 recognizes the words “channel 10”, the command control unit 105 isset to issue, to the TV reception unit 100, a command for changing thereception channel to channel 10. In other words, it is assumed that thewords “channel 10” are a keyword for issuing a command for changing thereception channel to channel 10.

In this case, if a person appearing on the TV program being receivedspeaks “channel 10” by chance, the loudspeaker 101 outputs the speechsignal of “channel 10”, the keyword is collected by the microphone 102,and recognized by the first speech recognition unit 103. Here, since thesecond speech recognition unit 104 recognizes the speech signal to beoutput to the loudspeaker 101, the second speech recognition unit 104also recognizes the keyword “channel 10”. In this case, it can bedetermined that the keyword “channel 10” recognized by the first speechrecognition unit 103 is the speech which has been output from theloudspeaker 101 and which has been recognized by the first speechrecognition unit 103, and that the keyword “channel 10” is thus not aspeech instruction from the user. Accordingly, the device including thespeech recognition function 1 does not change the channel to channel 10.

In other words, when the second speech recognition unit 104 recognizesthe keyword “channel 10”, that is, when the recognition result by thesecond speech recognition unit 104 matches the recognition result by thefirst speech recognition unit 103, the second speech recognition unit104 operates as described below. Specifically, the second speechrecognition unit 104 turns off the switch 106 to prohibit the commandcontrol unit 105 from issuing a command to the TV reception unit 100.Accordingly, a command instructing the TV reception unit 100 to changethe channel to channel 10 is not issued to the TV reception unit 100.

In contrast, when the second speech recognition unit 104 does notrecognize the keyword “channel 10”, that is, when the recognition resultby the second speech recognition unit 104 does not match the recognitionresult by the first speech recognition unit 103, the second speechrecognition unit 104 operates as described below. Specifically, thesecond speech recognition unit 104 keeps the switch 106 on to permit thecommand control unit 105 to issue a command to the TV reception unit100. Accordingly, a command instructing the TV reception unit 100 tochange the channel to channel 10 is issued from the command control unit105 to the TV reception unit 100. Accordingly, the device including thespeech recognition function 1 changes the channel to channel 10.

As described above, even if the first speech recognition unit 103recognizes a keyword associated with a command, the device including thespeech recognition function 1 determines that the keyword recognized bythe first speech recognition unit 103 is not a speech instruction fromthe user when the second speech recognition unit 104 recognizes the samekeyword, and the device 1 does not operate according to the commandassociated with the keyword. On the other hand, when the second speechrecognition unit 104 does not recognize the keyword which is the same asthe one recognized by the first speech recognition unit 103, the device1 determines that the keyword recognized by the first speech recognitionunit 103 is a speech instruction from the user, and operates accordingto the command associated with the keyword.

In other words, when the recognition result by the second recognitionunit 104 matches a predetermined keyword, the second speech recognitionunit 104 turns off the switch 106 to prohibit the command control unit105 from issuing a command to the TV reception unit 100. Accordingly,when the keyword recognized by the second speech recognition unit 104matches a predetermined keyword, the device including the speechrecognition function 1 does not operate according to the commandindicated by the keyword.

The keyword “channel 10” above is a mere example, and any keywords maybe used instead. A command does not have to be issued to the TVreception unit 100. For example, a command may be issued to an imagedisplay unit which displays an image according to an image signal of aTV signal received by the TV reception unit 100. Specifically, it may bethat keywords such as “brighten” and “darken” are used so that thecommand control unit 105 issues a command for controlling the imagedisplay unit according to such keywords. Alternatively, it may be thatkeywords such as “turn the volume up” and “turn the volume down” areused so that a command is issued for controlling the loudspeaker 101according to such keywords.

The speech signal input to the second speech recognition unit 104 doesnot have to be a signal which is immediately before being output fromthe loudspeaker 101, but may be a speech signal in one of stages fromwhen the speech signal is received and reproduced by the TV receptionunit 101 to when the speech signal is output from the loudspeaker 101.When the speech signal is an analog signal, of course, the signal isconverted to a digital signal by an analog to digital (AD) converter inone of stages before the signal is input to the second speechrecognition unit 104.

As described above, the device including the speech recognition function1 according to Embodiment 1 includes: the loudspeaker 101 which outputsspeech to a space; the microphone 102 which collects speech in thespace; the first speech recognition unit 103 which recognizes the speechcollected by the microphone 102; the second speech recognition unit 104which recognizes the speech to be output from the loudspeaker 101; thecommand control unit 105 which issue a command for controlling thedevice 1, based on the speech recognized by the first recognition unit;and the switch 106. The second speech recognition unit 104 and theswitch 106 prohibit the command control unit 105 from issuing a command,based on the speech to be output from the loudspeaker 101. The commandcontrol unit 105 corresponds to the command issuing unit, and the secondspeech recognition unit 104 and the switch 106 correspond to the controlunit.

This prevents the device including the speech recognition function 1from incorrectly operating due to the speech output by the device 1itself.

Specifically, when the output information which is the speechrecognition result by the second speech recognition unit 104 does notmatch a specific keyword, a command associated with the keyword isissued to the TV reception unit 100. When the output information matchesthe specific keyword, a command associated with the output informationwhich is the speech recognition result by the first speech recognitionunit 103 is not issued. In other words, the second speech recognitionunit 104 recognizes speech to be output from the loudspeaker 101, anddetermines whether the recognized speech matches a predeterminedkeyword. When a match is found, the second speech recognition unit 104turns off the switch 106 to prohibit the command control unit 105 fromissuing a command to the TV reception unit 100.

With this, when the speech output from the loudspeaker 101 is apredetermined keyword, a command for controlling the device includingthe speech recognition function 1 is not issued. Accordingly, by settingspeech associated with a command to a keyword, it is possible to preventthe speech output by chance by the device including the speechrecognition function 1 without user's intent from being recognized andresulting in an unintended operation. In other words, an incorrectoperation of the device 1 can be prevented more reliably.

In Embodiment 1, when the speech recognition result by the second speechrecognition unit 104 matches a predetermined keyword, the second speechrecognition unit 104 turns off the switch 106 to prohibit the commandcontrol unit 105 from issuing a command to the TV reception unit 100.However, the issuance of a command to the TV reception unit 100 may beprohibited in other ways. For example, it may be that the deviceincluding the speech recognition function 1 does not include the switch106, and when the speech recognition result by the second speechrecognition unit 104 matches a predetermined keyword, issuance of acommand to the TV reception unit 100 may be prohibited by stoppinggeneration of a command by the command control unit 105.

Embodiment 2

A device including a speech recognition function according to Embodiment2 downsamples a speech signal, which is an electric signal of speech tobe output from a loudspeaker, to have a narrower bandwidth, and cancels,from the speech collected by a microphone, an echo component which isthe speech collected by the microphone among the speech output from theloudspeaker. Accordingly, the device including the speech recognitionfunction can perform speech recognition without being interrupted by aspeech signal output by the device itself, with less amount ofcomputation.

Hereinafter, a description is given of the device including the speechrecognition function according to Embodiment 2 with reference to theaccompanying Drawings.

FIG. 3 is a block diagram illustrating a configuration of the deviceincluding the speech recognition function according to Embodiment 2. InEmbodiment 2, as a device including a speech recognition function 2, adescription is given of an example of a TV including a speechrecognition function.

The device including the speech recognition function 2 illustrated inFIG. 3 includes: a TV reception unit 200 which receives a TV signal andgenerates a speech signal; a loudspeaker 201 which outputs a speechsignal having a wide bandwidth into the space; a microphone 202 whichcollects speech signal in the space; a speech recognition unit 203 whichrecognizes the speech signal collected by the microphone 202; an echocanceller 204 which cancels, from the speech collected by the microphone202, an echo component which is the speech output from the loudspeaker202 and collected by the microphone 202; a downsampler 205 whichdownsamples the speech signal to be output from the loudspeaker 201 tohave a narrower bandwidth; and a command control unit 206 which issues acommand for controlling the device 2, based on output information fromthe speech recognition unit 203.

In FIG. 3, the TV reception unit 200, the loudspeaker 201, themicrophone 202, the speech recognition unit 203, and the command controlunit 206 are the same as the TV reception unit 100, the loudspeaker 101,the microphone 102, the first speech recognition unit 103, and thecommand control unit 105 in FIG. 1.

As described above, the device including the speech recognition function2 according to Embodiment 2 is different from the device including thespeech recognition function 1 according to Embodiment 1 in that thedownsampler 205 and the echo canceller 204 are included instead of thecontrol unit. The downsampler 205 downsamples a speech signal, which isan electric signal of speech to be output from the loudspeaker 201, tohave a narrower bandwidth. The echo canceller 204 estimates an echocomponent which is the speech collected by the microphone 202 among thespeech output from the loudspeaker 201, and cancels the estimated echocomponent from the speech collected by the microphone 202. The speechrecognition unit 203 recognizes the user speech by recognizing speechfrom which the echo canceller has canceled the echo component.

Next, operations of the device including the speech recognition function2 configured as above will be described.

FIG. 4 is a flowchart illustrating operations of the device includingthe speech recognition function 2 according to Embodiment 2.

First, the TV reception unit 200 receives a TV signal, and generates aspeech signal based on the received TV signal (S201). In recent years,the reproduction bandwidth of the speech of a TV signal is a widebandwidth of approximately 24 kHz. The speech signal thus generated isoutput to a space by the loudspeaker 201 (S202). In other words, thefrequency bandwidth of the speech output to the space is approximately24 kHz.

Speech, which is in the space and which includes the speech output tothe space from the loudspeaker 201, is collected by the microphone 202(S203). Specifically, the microphone 202 samples speech in the space,for example, at a sampling frequency of 8 kHz, and collects the speech.Specifically, the frequency bandwidth of the speech signal output fromthe microphone 202 to the echo canceller 204 is 8 kHz. In other words,the frequency bandwidth of the speech signal collected by the microphone202 has been downsampled to 8 kHz.

A wideband speech signal to be output from the loudspeaker 201 is inputto the downsampler 205, and is converted into a speech signal having anarrower bandwidth. In other words, the downsampler 205 downsamples thespeech signal to be output from the loudspeaker 201 (S204).Specifically, the downsampler 205 makes the bandwidth of the speechsignal to be output from the loudspeaker 201 to be narrower by cancelinga signal having a frequency bandwidth unnecessary for speech recognitionfrom among the speech signal to be output from the loudspeaker 201. Morespecifically, the frequency bandwidth necessary for speech recognitionis 8 kHz at most. Hence, for example, when the frequency band of thespeech signal to be output from the loudspeaker 201 is 24 kHz, thedownsampler 205 downsamples the frequency band of the speech signalinput to the downsampler to 8 kHz which is ⅓ of the frequency band ofthe input speech signal, and outputs the downsampled signal to the echocanceller 204.

The speech signal input to the downsampler 205 need not always be asignal immediately before being output from the loudspeaker 201, but maybe a speech signal in one of stages from when a speech signal isreceived and reproduced by the TV reception unit 201 to when the speechsignal is output from the loudspeaker 201. When the speech signal is ananalog signal, of course, the signal is converted to a digital signal byan analog to digital (AD) converter in one of stages before the signalis input to the downsampler 205.

Next, the speech signal collected by the microphone 202 and the outputsignal of the downsampler 205 are input to the echo canceller 204. Theecho canceller 204 cancels, from the speech signal collected by themicrophone 202, an echo component output from the loudspeaker 201 andcollected by the microphone 202. In other words, echo is canceled(S205). Specifically, the echo canceller 204 estimates an echo componentwhich is speech collected by the microphone 202 among the speech outputfrom the loudspeaker 201, based on the speech signal downsampled by thedownsampler 205, and cancels the estimated echo component from thespeech collected by the microphone 202. Specifically, the echo canceller204 cancels the speech signal of the echo component from the speechsignal output from the microphone 202, and outputs the speech signalafter the cancellation to the speech recognition unit 203.

The echo cancelling method performed by the echo canceller 204 may beany conventional echo cancelling methods.

Finally, the output signal from the echo canceller 204 is input to thespeech recognition unit 203 for speech recognition. The command controlunit 206 issues a command for controlling the device 2 according to theoutput information from the speech recognition unit 203. Specifically,the speech recognition unit 203 recognizes the speech signal on whichecho cancelling has been performed (S206), and the command control unit206 issues a command to the TV reception unit 200 according to theoutput information which is the speech recognition result by the speechrecognition unit 203 (S207).

As described above, in the device including the speech recognitionfunction 2 according to Embodiment 2, the downsampler 205 downsamplesthe speech signal, which is an electric signal of speech to be outputfrom the loudspeaker 201, to have a narrower bandwidth. The echocanceller 204 cancels, from the speech collected by the microphone 202,an echo component which is speech collected by the microphone 202 amongthe speech output from the loudspeaker 201, based on the speech signaldownsampled by the downsampler 205.

As described above, the device including the speech recognition function2 according to Embodiment 2 can provide advantageous effects asdescribed below, by using the echo canceller 204.

For example, it is assumed that the words “channel 10” is a keyword forissuing a command for changing the reception channel to channel 10.Here, in the case where the user instructs the change of the channel byspeaking “channel 10” and at the same time the TV itself outputs thespeech of the TV program loud, the words “channel 10” spoken by the userand the speech from the TV program are mixed and collected by themicrophone 202.

If the echo canceller 204 is not included, the speech recognition unit203 receives the mixed speech signal. As a result, it is interruptedthat the speech recognition unit 203 recognizes the keyword “channel 10”accurately.

In contrast, the device including the speech recognition function 2according to Embodiment 2 includes the echo canceller 204, which allowsthe echo component output from the loudspeaker 201 and collected by themicrophone 202 to be canceled from the speech signal collected by themicrophone 202. As a result, the device including the speech recognitionfunction 2 according to Embodiment 2 can accurately recognize userspeech.

Moreover, as described above, any of the speech signals input to theecho canceller 204 has a bandwidth narrower than that of the signal tobe output from the loudspeaker 201 to the space. In other words, thespeech signal input from the loudspeaker 201 side to the echo canceller204, and the speech signal input from the microphone 202 side to theecho canceller 204 have a bandwidth narrower than that of the speechsignal to be output from the loudspeaker 201. Accordingly, advantageouseffects as described above can be provided.

When the speech signal input to the echo canceller 204 is not narrowbanded, the input speech signal has a bandwidth of 24 kHz, but thefrequency bandwidth of the speech signal subject to speech recognitionis 8 kHz at most. Hence, when the speech signal input to the echocanceller 204 is not narrow banded, the amount of computation by theecho canceller 204 increases by 9 times (that is (24/8)^2 times) of theamount of computation originally required for speech recognition.

In contrast, the device including the speech recognition function 2according to Embodiment 2 includes the downsampler 205 and themicrophone 202 which performs downsampling. This allows the frequencybandwidth of any speech signals input to the echo canceller 204 to benarrower. Accordingly, the amount of computation by the echo canceller204 can be reduced.

The method of narrowbanding the speech signal input from the microphone202 side to the echo canceller 204 may be achieved by using themicrophone 202 of a narrow bandwidth which can perform processing in asimilar manner to that in Embodiment 2, or by downsampling the speechsignal collected by a microphone of a wide bandwidth into a speechsignal having a narrower band.

The downsampler 205 downsamples the speech signal, which is an electricsignal to be output from the loudspeaker 201, to have a frequencybandwidth that can be recognized by the speech recognition unit 203.Accordingly, decrease in speech recognition rate by the speechrecognition unit 203 is reduced.

As described above, the device including the speech recognition function2 according to Embodiment 2 is a device including a speech recognitionfunction which recognizes user speech which is speech from a user. Thedevice includes: the loudspeaker 201 which outputs wideband speech intoa space; the microphone 202 which collects speech in the space; thespeech recognition unit 203 which recognizes the user speech among thespeech collected by the microphone 202; the downsampler 205 whichdownsamples a speech signal, which is an electric signal of the speechto be output from the loudspeaker 201, to have a narrower bandwidth; andthe echo canceller 204 which estimates an echo component which is thespeech collected by the microphone 202 among the speech output from theloudspeaker 201, based on the downsampled speech signal, and cancels theestimated echo component from the speech collected by the microphone202. The speech recognition unit 203 recognizes the user speech byrecognizing speech from which the echo canceller 204 has removed theecho component

By causing the echo canceller 204 to estimate and cancel the echocomponent based on the output signal of the downsampler 205 in this way,the speech intended by the user can be recognized accurately withoutbeing interrupted by the speech signal output by the device includingthe speech recognition function 2 itself.

Moreover, by including the downsampler 205 in a stage prior to the echocanceller 204 to cancel the signal having a bandwidth unnecessary forspeech recognition, the amount of computation by the echo canceller 204can be significantly reduced without reducing the recognition rate ofthe user speech by the speech recognition unit 203. This is because, asdescribed above, the amount of computation by the echo canceller 204 isproportional to the square of the reproduction band of the input signal.

In other words, the device including the speech recognition function 2according to Embodiment 2 can accurately perform speech recognition withless amount of computation.

Moreover, the device including the speech recognition function 2according to Embodiment 2 includes the command control unit 206 whichissues a command for controlling the device including the speechrecognition function 2 based on the speech recognized by the speechrecognition unit 203. The speech recognition unit 203 recognizes speechfrom which the echo canceller 204 has canceled the echo component, andprohibits the command control unit 206 from issuing a command based onthe echo component.

Accordingly, the device including the speech recognition function 2according to Embodiment 2 reduces an incorrect operation of the deviceincluding the speech recognition function 2 caused by recognizing thespeech output by the device 2 itself without the user's intent.

Variation of Embodiment 2

In Embodiment 2, the speech signal generated by the TV which is thedevice including the speech recognition 2 is a monaural signal. Inrecent years, it is common that the speech signal is a stereo signal.Furthermore, multichannel broadcasting of 5.1 ch and the like havestarted. A description will be given, as Variation of Embodiment 2, of adevice including a speech recognition function when the signal generatedby the TV is a multi-channel signal, with an example where the number ofchannels is 2 ch.

FIG. 5 is a block diagram illustrating a configuration of a deviceincluding a speech recognition function according to Variation ofEmbodiment 2. A device including a speech recognition function 3illustrated in FIG. 5 is different from the device including the speechrecognition function 2 according to Embodiment 2 in that the speechsignal output from the loudspeaker is a multi-channel signal. In FIG. 5,the TV reception unit 300, the microphone 302, the speech recognitionunit 303, and the command control unit 306 are the same as the TVreception unit 200, the microphone 202, the speech recognition unit 203,and the command control unit 206 in FIG. 3.

In this way, the device including the speech recognition function 3according to Variation of Embodiment 2 is different from the deviceincluding the speech recognition function 2 according to Embodiment 2 inthat a stereo loudspeaker 301, a stereo downsampler 305, and a stereoecho canceller 304 are included for a stereo speech signal, instead ofthe loudspeaker 201, the downsampler 205, and the echo canceller 204 fora monaural speech signal.

Specifically, the stereo loudspeaker 301 includes loudspeakers eachcorresponding to a different one of channels of each stereo speechsignal of a TV signal, and converts each stereo speech signal intospeech and outputs the converted speech into a space. The stereo echocanceller 304 includes two echo cancellers each corresponding to adifferent one of the channels of each stereo speech signal. The stereoecho canceller 304 receives the stereo speech signal downsampled by thestereo downsampler 305, and cancels an echo component to be output fromthe stereo loudspeaker 301, from the signal collected by the microphone302. The method thereof may be any known methods. The stereo downsampler305 downsamples a wideband speech signal of each channel output from thestereo loudspeaker 301, and converts the signal into a signal having anarrower bandwidth.

Here, when the number of channels is N (N=2 in Variation of Embodiment2), the rate of downsampling of the input speech signal by the stereodownsampler 305 is desirably (1/N)^0.5 or less. In other words, when thenumber of loudspeakers is N (N is an integer greater than or equal to2), it is desirable that the stereo downsampler 305 downsamples theinput speech signal by (1/N)^0.5 or less. Accordingly, the deviceincluding the speech recognition function 3 according to Variation ofEmbodiment 2 is expected to obtain the advantageous effects as describedbelow.

The amount of computation by each echo canceller included in the stereoecho canceller 304 is proportional to the square of reproduction band ofthe received speech signal. Hence, by causing the stereo downsampler 305to downsample the speech signal by (1/N)^0.5, the amount of computationby the stereo echo canceller 304 is ((1/N)^0.5)^2=1/N per channel,resulting in 1/N*N=1 as a whole. In other words, the amount ofcomputation by each echo canceller in the stereo echo canceller 304 is1/N, and the amount of computation by the stereo echo canceller 304 is1/N*N=1. Specifically, even if the number of channels increases, theamount of computation assigned to the stereo echo canceller 304 can bekept to a predetermined level or less.

In other words, the device including the speech recognition function 3according to Variation of Embodiment 2 causes the stereo downsampler 305to downsample a speech signal by (1/N)^0.5. With this, even when thespeech signal is a multi-channel signal, the device including the speechrecognition function 3 can accurately recognize the speech spoken by theuser without being interrupted by the speech signal output by the device3 itself, with the amount of computation equal to or less than thatrequired for processing a monaural-channel signal. Specifically, thedevice including the speech recognition function 3 according toVariation of Embodiment 2 includes the stereo loudspeaker 301 whichoutputs a stereo speech signal. The device 3 can accurately recognizethe speech spoken by the user without increasing the amount ofcomputation compared to that required by the device including the speechrecognition function 2 according to Embodiment 2 which includes theloudspeaker 201 which outputs a monaural speech signal.

In Variation of Embodiment 2, the example has been described where thespeech signal processed by the device including the speech recognitionfunction 3 is a stereo (2.0 ch) signal, but the channel of the speechsignal is not limited to the example. The channel of the speech signalmay be, for example, 5.1 ch which has a larger number of channels thanthat of the stereo (2.0 ch) signal.

Although the devices including the speech recognition function accordingto one or more embodiments have been described based on the embodimentsand variation, the present disclosure is not limited to the embodimentsand variation. Various modifications to the embodiments and variationthat can be conceived by those skilled in the art, and forms configuredby combining structural elements in different embodiments and variationwithout departing from the teachings of the present disclosure may beincluded in the scope of one or more embodiments of the presentdisclosure.

For example, in each embodiment and variation, the TV has been describedas an example of a device including a speech recognition function.However, the device including the speech recognition function is notlimited to the TV, but may be a recording and reproducing device whichhas recorded TV broadcast, or a device which outputs speech such as adigital versatile disc (DVD) player, a blu-ray (registered trademark)(BD) player, or a compact disc (CD) which reproduces media on whichvideo content or music content has been recorded).

In the device including the speech recognition function 2 according toEmbodiment 2 illustrated in FIG. 3, it looks like, among two-systemspeech signals input to the echo canceller 204, a speech signal directedto the echo canceller 204 from the path to the loudspeaker 201 isdownsampled, whereas a speech signal input from the microphone 202 tothe echo canceller 204 is not downsampled. However, as described inEmbodiment 2, the sampling frequency of the microphone 202 is the sameas the sampling frequency of the output signal of the downsampler 205.In other words, in Embodiment 2, the speech signal input to the echocanceller 204 from the microphone 202 is downsampled by the microphone202.

The frequency band of the speech signal after being downsampled by themicrophone 202 and the downsampler 205 is not limited to 8 kHz describedabove. For example, the sampling frequency of the speech signal outputfrom the loudspeaker 201 is 48 kHz, the sampling frequency of themicrophone 202 is 16 kHz, and the downsampler 205 downsamples thefrequency band of the input speech signal to ⅓. The frequency band ofthe output signal of the downsampler 205 may be 16 kHz. In this case,too, the sampling frequency of the microphone 202 is 16 kHz, which isthe same as the frequency band of the output signal of the downsampler205.

Moreover, in the device including the speech recognition function 2according to Embodiment 2, the sampling frequency of the microphone 202is the same as the sampling frequency of the downsampler 205. However,the sampling frequency of the microphone 202 may be higher than thesampling frequency of the downsampler 205. For example, it may be thatthe sampling frequency of the microphone 202 is 24 kHz, and the samplingfrequency of the downsampler 205 is 16 kHz. In this case, as illustratedin FIG. 6, the device including the speech recognition function mayfurther include a downsampler 207 which downsamples an output signalfrom the microphone 202. The downsampler 207 may be caused to downsamplethe speech signal collected by the microphone 202 from 24 kHz to 16 kHzso that the frequency band of the output signal of the downsampler 205is the same as the sampling frequency of the microphone 202 (that is,the frequency band of the speech signal collected by the microphone202).

For example, part or all of the structural elements included in eachdevice above may be typically implemented as a large scale integration(LSI) which is an integrated circuit. These structural elements may beindividual chips or partially or totally contained on a single chip.

The term “LSI” is adopted herein, but this may also be referred to as“IC,” “system LSI,” “super LSI,” or “ultra LSI” depending on differingextents of integration.

The method of implementing integrated circuitry is not limited to LSI,and implementation by means of dedicated circuitry or a general-purposeprocessor may also be used. It is also possible to use a fieldprogrammable gate array (FPGA) or a reconfigurable processor whereconnections and settings of circuit cells in an LSI can be reconfigured.

Further, if a new integrated circuit implementation technology comes outto replace LSI as a result of the development of semiconductortechnology or a derivative other technology, naturally functional blocksmay be integrated using that technology. For example, application ofbiotechnology is possible.

Moreover, the configuration of the device including the speechrecognition function according to Embodiment 1 is not limited to the oneillustrated in FIG. 1, but may be at least the one illustrated in FIG.7. In other words, a device including a speech recognition function 4may be a device which includes a speech recognition function whichrecognizes user speech which is speech from a user. The device 4 mayinclude: a loudspeaker 401 which outputs speech into a space; amicrophone 402 which collects speech in the space; a first speechrecognition unit 403 which recognizes the speech collected by themicrophone 402; a command issuing unit 405 which issues a command forcontrolling the device 4 based on the speech recognized by the firstspeech recognition unit 403; and a control unit 404 which prohibits thecommand issuing unit 405 from issuing the command, based on the speechto be output from the loudspeaker 401.

With such a configuration, the device including the speech recognitionfunction 4 can prevent an incorrect operation of the device 4 caused dueto the speech output by the device 4 itself in a similar manner to thedevice including the speech recognition function 1 illustrated in FIG.1.

As illustrated in FIG. 8, the device including the speech recognitionfunction 4 performs a speech recognition method which recognizes userspeech which is speech from a user. The method includes: outputting(S401) speech into a space; collecting (S402) speech in the space afterthe outputting (S401); recognizing (S403) the speech collected in thecollecting (S402); issuing (S404) a command for controlling a deviceincluding a speech recognition function, based on the speech recognizedin the recognizing (S403); and prohibiting (S405) the command issuingunit 405 from issuing the command, based on the speech to be output inthe outputting (S401).

Moreover, the configuration of the device including the speechrecognition function according to Embodiment 2 is not limited to the oneillustrated in FIG. 3, but may be at least the one illustrated in FIG.9. In other words, a device including a speech recognition function 5may be a device including a speech recognition function which recognizesuser speech which is speech from a user. The device 5 may include: atleast one loudspeaker 501 which outputs speech into a space; amicrophone 502 which collects speech in the space; a speech recognitionunit 503 which recognizes the user speech among the speech collected bythe microphone 502; a downsampler 505 which downsamples a speech signal,which is an electric signal of the speech to be output from theloudspeaker 501, to have a narrower bandwidth; and an echo canceller 504which estimates an echo component which is speech collected by themicrophone 202 among the speech output from the loudspeaker 501, basedon the downsampled speech signal, and cancels the estimated echocomponent from the speech collected by the microphone 502. The speechrecognition unit 503 may recognize the user speech by recognizing speechfrom which the echo canceller 504 has canceled the echo component.

With such a configuration, the device including the speech recognitionfunction 5 can accurately recognize speech spoken by the user withoutbeing interrupted by the speech output by the device 5 itself, in asimilar manner to the device including the speech recognition function 2illustrated in FIG. 3. Additionally, in a similar manner to the deviceincluding the speech recognition function 2, accurate speech recognitioncan be performed with reduced amount of computation.

As illustrated in FIG. 10, the device including the speech recognitionfunction 5 performs a speech recognition method which recognizes userspeech which is speech from a user. The method includes: outputting(S501) speech into a space; collecting (S502) speech in the space afterthe outputting (S501); recognizing (S505) the user speech among thespeech collected in the collecting (S502); downsampling (S503) thespeech signal, which is an electric signal of the speech to be output inthe outputting (S501), to have a narrower bandwidth (S503); andestimating an echo component which is the speech collected in thecollecting (S502) among the speech output in the outputting (S501),based on the downsampled speech signal, and canceling the estimated echocomponent from the speech collected in the collecting (S502) (S504). Inthe recognizing (S505), the user speech is recognized by recognizingspeech from which the echo component have been canceled in thecancelling (S504).

Each of the structural elements in each of the above-describedembodiments may be configured in the form of an exclusive hardwareproduct, or may be realized by executing a software program suitable forthe structural element. The structural elements may be implemented by aprogram execution unit such as a CPU or a processor which reads andexecutes a software program recorded on a recording medium such as ahard disk or a semiconductor memory. A software program in which thedevice including the speech recognition function according to each ofthe above embodiments is implemented is as follows.

More specifically, the program for implementing the device including thespeech recognition function and the like according to Embodiment 1causes a computer to perform the speech recognition method asillustrated in FIG. 8.

Moreover, the program for implementing the device including the speechrecognition function and the like according to Embodiment 2 causes acomputer to perform the speech recognition method as illustrated in FIG.10.

Although only some exemplary embodiments of the present invention havebeen described in detail above, those skilled in the art will readilyappreciate that many modifications are possible in the exemplaryembodiments without materially departing from the novel teachings andadvantages of the present invention. Accordingly, all such modificationsare intended to be included within the scope of the present invention.

INDUSTRIAL APPLICABILITY

The device including the speech recognition function according to thepresent disclosure can accurately perform speech recognition withoutbeing interrupted by the speech output by the device itself. Hence, thedevice can be widely applied to devices which output speech such as aTV, a recording and reproduction device, or a DVD/BD/CD player.

The invention claimed is:
 1. A device including a speech recognitionfunction which recognizes user speech which is speech from a user, thedevice comprising: a loudspeaker which outputs speech to a space; amicrophone which collects speech in the space; a television (TV)reception unit configured to receive a TV signal and output a speechsignal; a first speech recognition unit configured to recognize thespeech collected by the microphone; a first control unit configured togenerate a command for controlling the TV reception unit, based on thespeech recognized by the first speech recognition unit; and a secondcontrol unit configured to permit or prohibit issuance of the command tothe TV reception unit, based on the speech signal, wherein the secondcontrol unit includes a second speech recognition unit configured toanalyze the speech signal to recognize the speech to be output from theloudspeaker, and the second control unit is configured to determinewhether or not the speech recognized by the second speech recognitionunit matches a predetermined keyword, and when the speech recognized bythe second speech recognition unit matches the predetermined keyword,prohibit the issuance of the command and when the speech recognized bythe second speech recognition unit does not match the predeterminedkeyword, permit issuance of the command.
 2. A method of recognizing userspeech using a device including a speech recognition function, the userspeech being speech from a user, the device including a loudspeaker, amicrophone, two speech recognition units, a TV set and a control unit,the method comprising: inputting a first speech signal from the TV setinto the loudspeaker, and outputting a first speech corresponding to thefirst speech signal into a space utilizing the loudspeaker; collecting asecond speech signal utilizing the microphone, the second speech signalincluding the first speech and user speech; recognizing, by a firstspeech recognition unit, the first speech signal; recognizing, by asecond speech recognition unit, the second speech signal; generating, bythe control unit, a command for controlling the device, based on thesecond speech signal recognized by the second speech recognition unit:determining, by the control unit, whether or not the recognized firstspeech signal by the first speech recognition unit matches a firstpredetermined keyword; when it is determined that the recognized firstspeech signal matches the first predetermined keyword, prohibitingissuance of a command corresponding to the user speech of the recognizedsecond speech signal, and when it is determined that the recognizedfirst speech signal does not match the first predetermined keyword,issuing the command corresponding to the user speech of the recognizedsecond speech signal to control the device.